Report from the Mass Interfaith Power and Light Energy Audit
Transcription
Report from the Mass Interfaith Power and Light Energy Audit
ENVIRONMENTAL STEWARDSHIP ASSESSMENT Report 1 st Parish Unitarian Universalist Church Chel m sf ord, Massach usetts February, 20 07 6 Institute Road Worcester, MA 01609 800.406.5374 mipl@MIPandL.org www.MIPandL.org February, 2007 Executive Committee Dear 1st Parish Congregants: Peter E. Kane Stephen B. MacAusland Thomas E. Nutt-Powell, Ph.D. Michele Sprengnether, Ph.D. Lara Hoke, M.Div., Program Director 1st Parish Unitarian Universalist 2 Westford Street Chelmsford, MA We are pleased to transmit this Energy Assessment and Environmental Stewardship Report. We encourage you to make it available within your congregation, and to promote similar efforts by others in the community of faith. Remember, If We Don’t, Who Will? Advisory Board Ross Gelbspan, author of The Heat is On Jim Gomes, President Environmental League of Massachusetts Sonia Hamel, Office for Commonwealth Development, Massachusetts Seth Kaplan, Senior Attorney Conservation Law Foundation Brian F. Keane, Executive Director SmartPower Kevin Knobloch, Executive Director Union of Concerned Scientists Penn Loh, Executive Director Alternatives for Community and the Environment Amory Lovins, C.E.O. Rocky Mountain Institute Adam Markham, Executive Director Clean Air-Cool Planet Russell Perry, AIA Managing Partner William McDonough + Partners Geeta Pradhan, Project Director New Economy Initiative The Boston Foundation Richard Trethewey, HVAC Specialist This Old House (WGBH) By implementing the recommendations here, you will be well on your way to better stewardship of the earth and savings on your operating costs through reducing your energy consumption. The next step in your journey is the most exciting one. With this report you have a full array of steps to follow. Equally important you have our prayers in support, and, as needed, our presence as well. Please review the report carefully. This report contain a range of recommendations for your congregation to reduce its energy consumption, lower your operating costs and reduce the pollution from your buildings. Some of the recommendations are simple and inexpensive; others require a bigger initial expenditure. It might seem daunting to think about moving forward with these recommendations. However, neither your congregation nor the earth is in better shape until actual changes are made to your facilities and to your usage patterns, and your congregants take similar actions. Again, thank you for your stewardship and your membership in MIP&L. Together, we will save energy, save money, save the planet, protect the peace, protect human health, and create jobs! After you have had some time to review the report, we can talk by phone or sit down with you to discuss the findings. Feel free to call me at 617-734-8944 or e-mail me at nuttpowell@MIPandL.org when you are ready to set up an appointment. In faith, Tom Thomas E. Nutt-Powell President Enc. This report presents the findings and recommendations of the assessment of energy use and environmental stewardship of 1st Parish Unitarian Universalist, Chelmsford. As stewards of the earth it is important that communities of faith understand the contribution of their facilities to environmental conditions. It is also important that they act responsibly to improve their situation, and to prompt similar understanding and action on the part of their congregants. The information in this report is organized in the following sections... Summary — Identifies the facility attributes and issues for environmental stewardship Environmental Stewardship Profile — Shows current use and cost of utilities, with the environmental impacts and potential for change Facility Systems and Conditions — Covering heating, domestic hot water, cooling, electrical, plumbing, and building envelope systems, with photos illustrating key conditions. Related Environmental Stewardship Action — Including clean electricity, and actions by congregants. Appendices — Detailed utilities use data, facility use patterns and materials for use in taking next steps, and a description of available services via Massachusetts Interfaith Power & Light. Environmental Stewardship Plan 1 1st Parish UU, Chelmsford SUMMARY First Parish Unitarian Universalist is located at 2 Westford Street, Chelmsford, Massachusetts. The facility consists of the following structures: Meeting House — Constructed in 1842, the meeting house building has wood walls, clear glass windows, a pitched roof, and wooden doors. Addition — Constructed in 1956, the addition contains classrooms, offices and a chapel. It also has wood clapboard walls, clear glazed windows (some new), a pitched roof, and entry doors on both north and south facades. The facility is heated by a gas-fired atmospheric hydronic boiler, located in a mechanical room at the intersection of the two buildings. The radiation dates to the year of construction of the addition. There are four zones, with thermostats located in the Sanctuary, parlor, chapel and vestry. Domestic hot water is generated by three sources: (1) a gas-fired on-demand wallmounted boiler in the mechanical room; (2) electric on-demand under the sink in the parlor kitchen and (3) an electric 40-gallon tank in the crawl space. There is no central cooling. Electric service is through the basement of the church building. It evidences upgrades over time. There is separate service for the tower clock. Wiring dates from various stages of work of each building. Interior lighting is shows upgrades over time by space. It is primarily florescent. There is entry lighting at doors. The main equipment with electricity demands includes office machines (computers and copy machines) and kitchen equipment, including refrigerators and dishwasher, some commericl grade.. The primary water use is from the sinks in the rest rooms and in the kitchen. The primary sewer use is toilets. As currently configured and operated the facility paid an estimated $11,348 for gas and electricity in 2006. There was no historic information provided. However, even if use is constant costs have increased annually, sometimes dramatically. As compared to the average facility of its type, 1st Parish used less energy per square foot and but pays more. Environmental Stewardship Plan 2 1st Parish UU, Chelmsford The key environmental stewardship issues for the facility are... Building — Improve thermal performance of the envelope Heating — Install an energy-efficient heat generation source with contemporary controls for multiple zones. Split the new section into four heating zones by side and floor. Install a single highly efficient DHW system as part of the new heat generation solution. Cooling — Replace existing inefficient air conditioners with the best available Energy Star rated air conditioners. Electrical — Continue to upgrade and use energy-efficient fixtures and lamping. A move to clean electricity ( possibly by installation of photovoltaics on the south-facing roofs, certainly by purchase of 100% green electricity) is essential. Maintenance — Ensure good and timely maintenance of systems using MIP&L’s maintenance contract template, including a complete inventory of equipment whether covered or not. Congregants and Community — Initiate a continuing program of environmental stewardship by congregants in their homes, and, by extension, in their places of work and communities. Encourage others in the broader community of faith to do likewise. MIP&L is a Mutual Ministry. If We Don’t, Who Will? Environmental Stewardship Plan 3 1st Parish UU, Chelmsford First Parish Unitarian Universalist, Chelmsford Environmental Stewardship Profile Last Year ELECTRICITY 2006 2007 2008 Total kWh Used 16,040 0 0 16,040 Cost $3,208 $0 $0 $3,208 Cost per kWh $0.20 #DIV/0! #DIV/0! $0.20 0.0% #DIV/0! 0 0 % change in Use kBtu/year 54,536 Utility Use by Type Water 0% Electricity 20% 54,536 No costs provided. Estimated. OIL No OIL Gas 80% Last Year GAS 2006 2007 2008 Total therms Used 5,239 0 0 5,239 Energy Benchmark — How Your Facility Compares Cost $8,140 $0 $0 $8,140 You Cost per therm $1.55 #DIV/0! #DIV/0! 0.0% #DIV/0! 523,900 0 0 Last Year 0 0 2006 2007 2008 Total 0 0 0 0 $0.00 $0.00 $0.00 $0.00 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! % change in Use kBtu/year $1.55 kBtu Use/SF Cost/SF Average % of Average 47 61 76% $0.91 $0.68 $1.34 NOx 523,900 WATER Estimate of Your Pollution Production Units Used Cost Cost per Units % change in Use CO2 SO2 Electricity 23,739 149 42 Gas and/or Oil 88,015 1 69 Total 111,754 150 111 No W&S information Potential for Pollution Reduction Green electricity Last Year 2006 Total Cost $ 11,348 % change - SO2 NOx 100% 73% 19% savings>> Gas <<As much as 2007 $ - 2008 $ - Total $ 11,348 Possible Reduction % reduction CO2 Note: Some data may be estimated. Environmental Stewardship Plan CO2 99% 4 (39,827) (149) (43) -36% -100% -39% Carbon Dioxide, a greenhouse gas SOx Sulfur Oxides, which cause acid rain NOx Nitrogen Oxide, which causes health problems 1st Parish UU, Chelmsford 1st Parish Unitarian Universalist, Chelmsford Summary of Facility Systems and Conditions Building Meeting House Total SF Component Type Quantity Year Installed Efficiency Action Walls Wood & Brick 5,460± sf 1842 Poor Insulate as possible Windows Clear, Large 25 1842+ Poor Interior storm windows 5400 Roof Pitched 3,100± sf 1842+ Fair Add attic insulation Doors Wood 3 1842+ Fair Weatherstrip. Addition Walls Wood 3,460± sf 1956 Fair Insulate as possible Total SF Windows Wood frame. Hunge 28 Various Good>Fair Interior storm windows 7014 Roof Pitched 4,640± sf 1956+ Fair Add attic insulation Doors Wood 3 Various Good>Fair Weatherstrip. Component Type Quantity Year Installed Efficiency Generation Gas fired atmospheric 495 mbh 1970± Poor Controls Standard with boiler ? Poor Action Upgrade to 92+% efficiency condensing mode Upgrade to digital Distribution Hydronic 4 zones Recent Good DHW Gas & Electric 3 separate. Various Fair>Poor Component Type Quantity Year Installed Efficiency Action Generation NONE Action Heating Cooling Use 7 day/4 setting Upgrade to one gas-fired 92+% efficiency condensing mode on-demand DHW Controls Distribution Electrical Plumbing Component Type Quantity Year Installed Service 2 meters Separate for clock Recent Condition Efficiency Good Monitor Wiring Copper — Various Good Monitor Lighting, Interior Most florescent Each space Various Good Upgrade as possible Lighting, Exterior Various Entries Various Fair Equipment Office & Kitchen Some commercial Various Good>Poor Upgrade to CFL+ Always use EnergyStar Check EPA website for best rating Component Type Location Year Installed Efficiency Action Water Sinks Restrooms & Kitchen Various Low Use on/off aerators Sewer Toilets Restrooms Various Low Use 1.6 gallon Note: Action is related to affirmative environmental stewardship. Environmental Stewardship Plan 5 1st Parish UU, Chelmsford FACILITY SYSTEMS AND CONDITIONS This section presents information on each of the major systems at the facility, the conditions, recommended actions and fundamental reasons for taking these actions. In many instances a recommendation is made to use EnergyStar equipment. Note that EnergyStar labeling simply means that the equipment meets a minimum threshold of efficiency. Selection of equipment should involve comparison shopping, including accessing information available at EPA’s EnergyStar web site, http://www.energystar.gov/. Also, a variety of helpful technical information relevant to recommendations is provided at Appendix G. Seek gas and electric company rebates. Heating Existing Conditions Heat is generated for the entire facility by a gas-fired atmospheric hydronic boiler. The boiler, manufactured by Weil McLain, was installed in the 1970s. It is rated at 495,000 btu. It has an estimated efficiency of 75%. The heating system has in-space programmable thermostat controls. The controls serve four zones. They are located in the Sanctuary, parlor, chapel and vestry. Heating distribution is by pumps via hydronic radiation. Recommendations It is recommended that high efficiency (92+%) gas-fired condensing mode boiler be installed. This should be done in conjunction with upgrade of the DHW system. Obtain gas company financial rebates. Environmental Stewardship Plan 6 1st Parish UU, Chelmsford Domestic Hot Water Existing Conditions Domestic hot water is generated by three sources: (1) a gas-fired on-demand wall-mounted boiler in the mechanical room; (2) electric on-demand under the sink in the parlor kitchen and (3) an electric 40-gallon tank in the crawl space. The equipment is of various ages. While ondemand is more efficient that stored DHW, having three generation sources is inefficient. Recommendations It is recommended that a single on-demand gas-fired DHW source be installed, sensibly in conjunction with the new heating system. Cooling Existing Conditions There is no central cooling. Recommendations If cooling is installed, use the highest SEER rating available. The EPA website provides equipment information. This is also the case for home installations, and is especially important for through-window equipment. Electrical Existing Conditions Electric service is provided to the facility via a main service duct that enters the building in the basement. There is separate service for the tower clock, maintained and paid for by the Town. Environmental Stewardship Plan 7 1st Parish UU, Chelmsford The lighting varies by room. The majority of the lighting is energy efficient. There is a variety of equipment in the facility that uses electricity, including office equipment, refrigerators, and other kitchen equipment, including a commercial-grade dishwasher. This equipment varies in age and condition. The majority of the equipment is not energy efficient. Recommendations Continue to use (or upgrade to) energy-efficient fixtures and lamping. Upgrade equipment to energy efficient standards on replacement, making use of electric company financial incentives. Plumbing Existing Conditions The primary water using equipment in the facility includes sinks in the restrooms and the kitchen. The toilets in the restrooms are the primary generator of sewer use. Recommendations Continue water conservation measures, including faucet aerators and 1.6 gallon toilets. Building Envelope Existing Conditions The building walls are primarily wood, with brick at the lower level of the Meeting House.. They are not well insulated. There is a steeple. The windows are primarily clear, single glazed, with some rooms in the addition having newer thermopane windows. They windows have exterior storm windows, which serve primary for weather protection, as they have drip holes for Environmental Stewardship Plan 8 1st Parish UU, Chelmsford water run-off, which also permits air into the space in winter. The roofs are pitched. There is some attic insulation. There are primarily wood doors, generally old Recommendations It is recommended that additional insulation be added to accessible attic spaces, to walls and especially in the ceiling of the crawl space. It is further recommended that interior “storm” windows be installed for improved thermal performance. These can remain in place for nonoperable windows, and be removed in summer for those windows used for natural ventilation. Finally it is recommended that the south-facing roofs have photovoltaic (PV) equipment (potentially shingles, if historic controls apply) installed as a means of direct, non-polluting electricity generation. Maintenance Ensure good and timely maintenance of systems using MIP&L’s maintenance contract template, including a complete inventory of equipment whether covered or not. The template is found at Appendix F, and is available Environmental Stewardship Plan at the 9 MIP&L web site, www.MIPandL.org. 1st Parish UU, Chelmsford #1 — View of building and cemetery, from west. The congregation dates to 1655. #4 — An accessible entry is at the lower level of the Meeting House. #2 — The primary entries for the new section (including one directly to the chapel) is on the north façade. #3 — Entry to Meeting House. Windows are wood frame with clear single pane glazing. Some rooms in the new section have new windows. Use of interior “storm” windows is an energy conservation measure that also enhances occupant comfort. Environmental Stewardship Plan #5 — View of newer (foreground) and older (rear) sections of building. The boiler room is in the brick section with the chimney. 10 1st Parish UU, Chelmsford #9 — Entry foyer at front of Meeting House. Weatherstrip doors for improved thermal performance. #6 — The steeple and clock are recognized as parts of Chelmsford’s history. #10 — Stairs between floors act as chimneys. As possible, ensure that heating zones are closed off each from the others. #7 — View to front of Sanctuary. Nonoperable windows should have interior “storms” for thermal upgrade year round. #11 — Blown and batt insulation in Sanctuary attic, with wiring for lighting. More insulation is possible. Installation by congregants keeps costs at materials only. #8 — View to rear of Sanctuary. Environmental Stewardship Plan 11 1st Parish UU, Chelmsford #12 — Main entry door and entry hall to new section, with fire alarm panel at right. The main office is at this entry. Building has hydronic heating. #15 — The kitchen is in the older section, off the vestry space. #15 — Chapel. There are 4 heating zones in the building, this being one. There is a balcony here also. #13 — Hall at day care center, view toward older section and large vestry room. #16 — “Attic” space over chapel insulted. #14 — Vestry is used for day care during the week also. Environmental Stewardship Plan 12 1st Parish UU, Chelmsford #17 — The parlor is on the 1st floor of the new section. It has a small kitchen. #20 — New window with thermopane glazing. Upgrade windows as funds available, progressing from most to least used rooms. Installation of interior storm windows at all locations is a low cost and high yield action. #18 — Classroom on the 2nd floor is typical of the spaces on this level. There are also 2 offices on this floor. #19 — View out from Howard room, showing stairs. Creating upper and a lower floor, north and south heating zones will improve thermal energy efficiency and occupant comfort. Environmental Stewardship Plan #21 — Window in Chapel. Exterior storm windows are for weather, not thermal performance, given drip holes at base to permit water to escape, and also air to get in! 13 1st Parish UU, Chelmsford #22 — Insulating ceiling of crawl space recommended. Access available for repiping to create 4 zones in new section. #24 — On-demand DHW generation (electric) in kitchen of parlor. #23 — There is one gas-fired atmospheric boiler. Upgrade to high efficiency (92%) condensing mode, with two boilers to ensure heat even if one “fails”. Install good digital controls. Continue use of on-demand DHW generation, now wall mounted at right. Consolidate building DHW generation to only one high-efficiency source, sensibly in this location. #25— Additional 40 gallon electric DHW tank is in the crawl space. Environmental Stewardship Plan 14 1st Parish UU, Chelmsford RELATED ENVIRONMENTAL STEWARDSHIP ACTION This section discusses related environmental stewardship actions for the congregation Clean Electricity Every time we use electricity we are polluting the earth. The electricity that we use comes from power plants. The vast majority of these power plants burn non-renewable fossil fuels such as coal, oil, and gas. These power plants cause a great deal of pollution and impact the health and safety of those who live near them. Unfortunately, these same power plants are disproportionately located in poor communities and communities of color. This is a phenomenon known as “environmental injustice” and “environmental racism.” In fact, three different studies of national scope (including the United Church of Christ's Commission on Racial Justice) found that race is the single most influential factor in community exposure to pollution. Encouraging the growth of renewable, clean electric sources – and stopping our dependence on dirty, fossil fuel-burning power plants – is one important step toward environmental justice and stewardship of the earth. 1st Parish can further its commitment to stewardship of the earth and environmental justice by converting from the dirty power that is delivered by your electric company to a clean renewable energy product. The switch will replace the polluting power sources that your congregation currently uses with clean, renewable energy sources. What polluting power is the 1st Parish using? Currently the majority of New England’s electricity comes from non-renewable polluting resources like coal, oil, natural gas and nuclear power. More than 85% of our electricity is generated from these sources: 27 % from oil, 18% coal, 20% natural gas, and 20% nuclear power. Coal, oil and natural gas all release large amounts of air pollution—particularly carbon dioxide (the main contributor to global warming), sulfur dioxide (which causes acid rain), and nitrogen oxide (which causes smog). Environmental Stewardship Plan 15 1st Parish UU, Chelmsford According to the American Heart Association, roughly 10,000 people die prematurely each year from heart- and lung-related illness associated with emissions from fossil fuel power plants, not to mention the thousands of children who suffer daily with pollution-related asthma. Nuclear power raises long-term concerns about the disposal and storage of radioactive nuclear waste. So every time we turn on the lights or watch TV we are causing environmental damage by increasing the demand to produce more power from dirty conventional power plants. What are clean, renewable energy sources? Renewable energy comes from sources such as the sun, wind, water and biomass/landfill gas (our garbage). These energy sources are referred to as renewable because they are not finite resources, like oil, coal, and other fossil fuels. The planet will not run out of sun energy! Even more important is the fact that renewable resources create little or no pollution. 1st Parish can offset its electrical usage by purchasing Renewable Energy Certificates, or “greentags”. You will be “voting with your dollar” to offset your congregation’s electrical usage with clean, renewable electricity suppliers. How do you make this "vote"? Use the form attached as Exhibit C. At the congregation’s current rate of electrical usage (approximately 16,000 kWh each year), purchasing greentags to offset 100% of your electrical usage would cost approximately between $195 and $385. We would recommend that you opt for a product that is offered by a Massachusetts-based not-for-profit company. These products are New England Wind and ClimateSAVE. Further details about these products can be found in Appendix D and at www.newenglandwind.com and www.climatesave.com. With the new Clean Energy Choice program, you now have a chance to triple the impact when you choose clean electric suppliers. As always, “voting with your dollar” for clean energy will increase the demand for new electricity generating facilities that are renewable in source (e.g., wind, solar, etc.). As always, it also sends an important message to policymakers that you want clean, renewable energy sources rather than polluting fossil fuel burning power plants. Now, with Clean Energy Choice, the Massachusetts Technology Collaborative will match each dollar you spend to support new renewables with up to $1 for your Chelmsford to spend on Environmental Stewardship Plan 16 1st Parish UU, Chelmsford renewable energy projects or educational materials, and with up to $1 for renewable energy and energy efficiency projects that benefit low-income residents. Truly, this is a win-winwin! It is, quite simply, the right thing to do. (See Appendix D for more information about Clean Energy Choice.) Note that New England Wind is eligible for the Clean Energy Choice matching grant funds; ClimateSAVE is not. Truly, this is an incredible opportunity for faith in action. Congregants who live in NSTAR or municipal electric territory can also purchase New England Wind or ClimateSAVE. Congregants who live in National Grid territory can enroll in the GreenUp program for their homes, also described in Appendix D. Details and forms for clean energy product options are available in Appendix C for the Congregation and in Appendix D for congregants, friends and neighbors, and others in your community. Your congregation now has the option to make a powerful pro-creation statement by spending between $195 and $385 annually to use 100% green electricity at the facility. If doing 100% is not possible, begin with using 50% green electricity for the facility (this would cost between $100 and $200), then move up to 100% next year!. If we don’t, who will? Environmental Stewardship Plan 17 1st Parish UU, Chelmsford Appendix A Utilities Use Information 2006 Environmental Stewardship Plan 18 1st Parish UU, Chelmsford SUMMARY OF UTILITY USE First Parish Unitarian Universalist, Chelmsford ELECTRICITY YEAR TOTAL 2006 $8,140 2007 $0 % prior year 0.0% 2008 $0 % prior year #DIV/0! 2009 $0 % prior year #DIV/0! $s GAS KWH $s $0 16040 $8,140 $0 0 #DIV/0! $0 #DIV/0! #DIV/0! Days 5239 3,420 $0 0 $0 0 3,478 $0 0 0.0% 0.0% 0.0% 101.7% 0 $0 0 2,703 #DIV/0! 77.7% 0 0 #DIV/0! 0.0% 0 #DIV/0! #DIV/0! $ #DIV/0! No electric costs. $s VOLUME #DIV/0! $0 #DIV/0! $ #DIV/0! #DIV/0! 0 #DIV/0! 0 #DIV/0! No W&S information. Printed: 2/4/07 15:01 © Copyright, 2007. Massachusetts Interfaith Power & Light WATER & SEWER THERMS #DIV/0! $0 Degree www.MIPandL.org ELECTRICITY USE Year 2006 est First Parish Unitarian Universalist, Chelmsford Provider National Grid Meter # Rate Serves> Account # $s % increase $s KWH $/KWH Bill Month January Februrary March April May June July August September October November December $0.00 2007 2008 2009 January Februrary March April May June July August September October November December $0.00 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! $0.00 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! $0.00 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! January Februrary March April May June July August September October November December January Februrary March April May June July August September October November December © Copyright, 2007. Massachusetts Interfaith Power & Light % increase KWH 1,440 1,440 880 2,160 1,600 720 1,200 1,440 1,400 1,360 1,040 1,360 16,040 $0.00 $0.00 $0.00 $0.00 $0.00 $0.00 $0.00 $0.00 $0.00 $0.00 $0.00 $0.00 $0.00 0 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! 0 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! GAS USE Year 2006 2007 2008 2009 First Parish Unitarian Universalist, Chelmsford Provider Keyspan Serves> Meter # Account # Bill Date $s Therms $/thrm January $1,474.87 855 $1.72 Februrary $1,789.69 1,151 $1.55 March $985.50 643 $1.53 April $596.16 410 $1.45 May $226.61 206 $1.10 June $52.33 45 $1.16 July $14.90 11 $1.35 August $38.99 33 $1.18 September $141.92 138 $1.03 October $494.85 428 $1.16 November $935.69 530 $1.77 December $1,388.51 789 $1.76 $8,140.02 5,239 $1.55 January Februrary March April May June July August September October November December $0.00 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% $0.00 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! $0.00 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! January Februrary March April May June July August September October November December January Februrary March April May June July August September October November December © Copyright, 2007. Massachusetts Interfaith Power & Light % increase Degree Days 1,059 634 476 196 26 3 0 0 0 92 318 616 3,420 0 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 0.00% 868 661 604 173 110 5 0 0 0 96 269 692 3,478 101.70% 0 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! 568 667 502 178 66 0 0 0 2 88 199 433 2,703 77.72% 0 #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! 0 0 0 0 0 0 0 0 0 0 0 0 0 0.00% Appendix B Space Use for Typical Week To be provided by congregation Environmental Stewardship Plan 19 1st Parish UU, Chelmsford Appendix C Green Electricity Purchase Information for Congregation Environmental Stewardship Plan 20 1st Parish UU, Chelmsford First Parish Unitarian Universalist, Chelmsford GreenUp Options Approximate kwh usage on R-1 account: 16,040 Options Per kWh NewWind Energy 100% $ 0.024 $ NewWind Energy 50% $ 0.012 New England GreenStart 100% New England GreenStart 50% kwh Annual Match? Content Certification Source 384.96 CEC* 100% renewable, 50% new Green-e new wind $ 192.48 CEC* 50% renewable, 25% new Green-e new wind $ 0.024 $ 384.96 CEC* 100% renewable, 25% new Green-e $ 0.013 $ 200.50 CEC* 50% renewable, 15% new non-certified Per kWh rate is premium added to usual National Grid Bill * This option is eligible for the Clean Energy Choice matching grant program of MTC. Sterling Planet products are not eligible. new biomass, wind, solar new biomass, wind, solar Appendix D Information for Congregants Green Electricity Purchase Information Environmental Stewardship Plan 21 1st Parish UU, Chelmsford Voluntary Contributions Help to Speed the Transition to a Clean Energy Future. Clean Energy Choice By developing energy from wind, solar, and other renewable resources, Massachusetts can reduce reliance on fossil fuels that contribute to air pollution and global warming. Each $1 of Support for New Renewables Is Matched with as much as $2 in MTC Grants. One way to jumpstart the transition to a clean energy future is to voluntarily contribute to new renewable energy sources. Any Massachusetts resident can participate and choose to pay anywhere between $5 to $15 a month, but only you can decide if this is something that is right for you to do. The Massachusetts Technology Collaborative (MTC) offers a comprehensive website to help you make this decision, www.cleanenergychoice.org. Increased Demand for Renewable Energy Helps Force the Expansion of Clean Energy Supplies. What Will My Monthly Payments Accomplish? By voting with your dollars for clean energy you will: ■ Help increase the demand to build new electricity generating facilities that use renewable energy ■ Send an important signal to policymakers that you want clean, renewable sources of power. Sign Up The following renewable energy suppliers have joined with MTC to provide you with Clean Energy Choices. Please feel free to contact them via www.cleanenergychoice.org or directly: Mass Energy Consumers Alliance (Tax-deductible Clean Energy Choice offerings are available from this supplier.) 1-800-287-3950 www.MassEnergy.com CET & Conservation Services Group, Inc. 1-800-689-7957 www.GreenerWattsNewEngland.com Community Energy 1-866-WIND-123 www.NewWindEnergy.com If you choose to participate in Clean Energy Choice, MTC will match every dollar you spend to support renewables with: ■ Up to one dollar for your city or town to spend on renewable energy projects or educational materials.* ■ In addition, up to one dollar for renewable energy and energy efficiency projects that benefit low-income residents. * Communities that own their municipal light plants are not eligible for this MTC matching grant. Some Choices Can Be Partly or Entirely Deducted from Your Federal Tax Return. Clean Energy Choice participants are helping everyone in Massachusetts join in the transition to clean energy. Because premiums paid for renewable energy support a good cause, in some cases they can be treated like a charitable contribution and be partially or entirely deducted from your federal income taxes (look for those offerings that say "tax deductible"). Find Out If Clean Energy Choice Is Right For You The Massachusetts Technology Collaborative's Renewable Energy Trust invites you to find out more or to sign up at www.cleanenergychoice.org. Here, you will find: ■ answers to your questions ■ help deciding if Clean Energy Choice is right for you ■ information regarding renewable energy suppliers and offerings. Appendix E MIP&L Services Environmental Stewardship Plan 22 1st Parish UU, Chelmsford Massachusetts Interfaith Power & Light MIP&L Member Services Membership in MIP&L supports the mission of environmental stewardship by helping promote renewable energy, energy conservation, and the wise use of resources. Membership is open to any congregation, organization and/or related facility of the community of faith. Annual member fees are modest, based on the operating budget of the member. MIP&L is a mutual ministry, with members working in their organizations, homes, workplace and community to bring about sensible and timely environmental actions. Basic Services 1. An energy audit of each congregant’s home.1 2. General help and advice with energy and environmental questions, both personally and electronically (including an interactive Website). 3. Special Programs, including workshops and membership meetings. 4. MIP&L Newsletter, including a calendar of upcoming MIP&L programs; member “success” stories; faith-based ecology pieces; and environmental news highlights. Additional Services (a range of optional services, paid for separately) 1. An Environmental Stewardship Assessment of core facilities. The member provides information on facility and utility use. A skilled professional (a.) examines the building, lighting, heating, cooling and controls systems; (b.) reports on the patterns of use and their impact; and (c.) identifies approaches to improved stewardship, including possible equipment installation (current or future). (Congregation) 2. Oil-buying aggregation group, to reduce the cost of purchasing heating oil. (Congregation and Congregants) 3. Cost reduction assistance in gas purchasing. (Congregation) 4. Purchase of clean renewable energy. (Congregation and Congregants) 5. Capital Needs Assessments and 20-year Capital Plans (Congregation) 6. Access to utility rebate programs. 7. Technical assistance — the opportunity to have an expert “set of eyes” review new construction projects, building additions, and retrofits to existing systems. MIP&L can act in a variety of roles, such as independent advisor, project manager, assistance in procurement of professional services and/or in obtaining turnkey implementation of environmental stewardship actions. 1 For most locations, this is at no cost, subject to the rules and regulations of the local energy utility. The home assessment is available at a modest fee in locations not paid for by the utility. 6 Institute Road • Worcester, MA01609 • 800-406-5374 • www.MIPandL.org Appendix F Maintenance Contract Template Environmental Stewardship Plan 23 1st Parish UU, Chelmsford Maintenance Contract Template www.MIPandL.org (c) Massachusetts Interfaith Power and Light INSTRUCTIONS A contract is an earnest form of communication. It helps each party understand and act on the mutual responsibilities and expectations. 1 Enter the information for the two Parties, the "client" and the "provider". The entry at (" ") is for an abreviation, such as "MIP&L". 2 Complete Exhibits A-1 and A-2. Together they are an INVENTORY of the important heating, ventilating, and air conditioning ("HVAC"), and mechancial and electrical ("M&E) equipment at the facility. The decision to put a piece of equipment in A-1 or A-2 is based on cost and complication of care. REMEMBER: Everything has a "useful life", and will need care sooner or later. Good preparation is the key. 3 The decision to put a piece of equipment in A-1 or A-2 is based on cost and complication of care. This needs to be a carefully considered decision, with client and provider considering costs and benefits. 4 Based on the conclusion about the nature of service to be provided for the specified components Complete Exhibit B. Costs can be lumped for a combination of components. Typical service actions include system start-up, mid-point review and shut-down. Some equipment may require more frequent servicing to function effectively and efficiently. Be certain to enter the hourly rate for additional services, both routine and emergency. 5 Additional exhibits may be added to provide further clarity and specification of work scope, timing, responsibilities of the parties and so. Questions? Call Massachusetts Interfaith Power & Light 1-800-406-5374 www.MIPandL.org Note that rows 1>25 do not print! Page 1 of 6 Maintenance Contract Template (c) Massachusetts Interfaith Power and Light www.MIPandL.org CONTRACT MEP Systems Maintenance 1 — PARTIES Client Contact Person Address City/State/Zip Phone Email (" ") (" ") Title Fax Provider Contact Person Address City/State/Zip Phone Email Title Fax 2 — SERVICES TO BE PROVIDED The provider is responsible for maintenance and service for the equipment identified in Exhibit A-1. Exhibit A-2 identifies equipment for which maintenance and service will not be provided. The services shall include routine, periodic and milestone maintenance and servicing to insure the safe, continuous and efficient operation of the equipment. In general the meaning of routine , periodic and milestone maintenance and servicing shall be as specified and/or recommended by the manufacturer of the equipment or system. Failing such guidelines, recommendations and standards of applicable industry organizations shall apply. 3 — TERMS FOR SERVICES TO BE PROVIDED Exhibit B sets for the specific services to be provided for the equipment included in this contract. The services will be provided during normal working hours. Exhibit B also sets forth the cost for services Payment for services shall be within thirty (30) days of receipt of invoice. Taxes: Client is exempt from sales tax on products permanently incorporated into its facilities. Provider will be provided a documentation of sales-tax exemption from the client, and will place the number on invoices for services rendered. At the completion of the annual cycle of maintenance, Provider shall file with Client a statement that all purchases made under the exemption were entitled to be exempt. Provider shall pay legally assessed penalties for any improper use of the Client's tax exemption number. Insurances: Provider shall purchase and maintain insurance providing the coverages and limits designated in this Section. Insurance shall be provided by insurers licensed to transact business in the Commonwealth. Provider shall not start to perform and furnish services, in whole or in part, or continue to perform and furnish any part of the services, unless Provider has in full force and effect all the required policies of insurance. Provider must provide the following coverage: Page 2 of 6 Maintenance Contract Template www.MIPandL.org (c) Massachusetts Interfaith Power and Light (a) General liability insurance with a combined single limit of not less than $1,000,000 for injury to or death of any one person, for injury to or death of any number of persons in one occurrence, and for damage to property, insuring against any and all liability of the Client and the Provider including, without limitation, coverage for contractual liability and broad form property damage; (b) Workers Compensation and Employers Liability Insurance providing statutory benefits to all employees; (c) Owned, Non-Owned and Hired Automobile Liability with a limit of not less than $1,000,000 combined single limit; (d) Excess Liability Insurance shall provide the following protections: employer's liability, general liability and automobile liability. Excess Liability Insurance shall be at least as broad as the underlying policies of liability insurance. Client shall be named as an additional insured under Sections (a), (c), and (d). Client shall be provided a Certificate of Insurance, which shall also provide a 30-day notice of cancellation. Hold Harmless: Provider shall indemnify, defend and hold harmless Client from any and all liability of whatever kind and character for loss, actual or claimed, to persons or property arising by virtue of the activities of Provider, its agents, servants, employees or clients. Provider shall properly notify Client of any claim involving the services or the Client. Duration: The contract shall commence on and shall remain in force for twelve (12) months, subject to extensions and renewals. The contract shall automatically terminate if no extension is formally agreed to within thirty (30) days of the end date of the current contract. Termination other than at end of contract requires a thirty (30) day notice, to be provided in writing addressed to the signators of the contract. The notice of termination is to be delivered by United States Postal Service using certified mail, return receipt requested. SIGNATORS For Client For Provider Signature Signature Title Title Date Date Page 3 of 6 Maintenance Contract Template (c) Massachusetts Interfaith Power and Light www.MIPandL.org EXHIBIT A-1 Equipment Covered # Location Component Manufacturer Size Page 4 of 6 Model Serial # Date Maintenance Contract Template (c) Massachusetts Interfaith Power and Light www.MIPandL.org EXHIBIT A-2 Equipment Not Covered # Location Component Manufacturer Size Page 5 of 6 Model Serial # Date Maintenance Contract Template www.MIPandL.org (c) Massachusetts Interfaith Power and Light EXHIBIT B Services to be Provided, with Costs When? Component Service Cost NOTES 1 Cost for all services described above includes labor and materials. 2 Hourly rate for additional services is $0.00 Regular $0.00 Emergency Materials for additional services will be charged at cost plus 0.00% 3 Client to be provided with report of work for each service call, whether in contract or additional 4 Report for Fall and Spring scheduled service is to include recommendations on future work, timing and cost Page 6 of 6 Appendix G Useful Technical Information Environmental Stewardship Plan 24 1st Parish UU, Chelmsford Everyday Environmental Stewardship Saving Energy in Existing Buildings Louis Tsien Key issue: Winter Draftiness Stewardship Opportunity: Interior Storm Windows As people of faith, we believe that we should be stewards of God's creation. As heads of household and governance board members, we wince at energy bills that seem only to increase from year to year. Energy conservation is a great abstract idea, for both theological and practical reasons -- but improving the energy efficiency of our buildings (both homes and religious facilities) takes both money and effort, of which we never have enough. And when most of the typical solutions are installed, it still seems drafty in the winter. What to do? Stewardship Opportunity — Interior Storm Windows Exterior storm windows leak air because of moveable sashes, and weep holes that drain rain water in the summer let cold air in during the winter. Inexpensive flexible plastic film applied on the inside works, but is not very aesthetic and can harm paint. The best solution is to purchase pre-assembled or build sturdy lightweight interior storm windows. How I Figured It Out I've struggled with this dilemma for several decades, both at home in Watertown, MA, and on behalf of my church, St. John the Evangelist in downtown Boston. Our family moved to Watertown in the early 1980s, soon after the OPEC oil embargo and gas lines of the late 70s. Our house is somewhat elderly, wood framed, 3 stories plus basement, gravity hot water radiators fired (then) by a coal-converted-to-oil boiler. Over the next 20 years, we had insulation blown into the exterior walls and attic, replaced the primary windows with double-paned glazing, and replaced the boiler with a modern gas-fired unit and added a circulation pump; all of these are big ticket, but standard energy-conscious upgrades for an old building. Yet, certain rooms in the house still felt cold -- which infuriated me: where could the heat be going? My wife says I looked ridiculous, crawling around on hands and knees while holding a lit candle, looking for cold air currents. No more candle flame watching. I use a remote infrared thermometer with digital readout (Raytek or Extech, available online, or from You Do It Electronics, Needham). The thermometer even has a red laser pointer, to indicate the location at which temperature is being read. The reading changes almost instantly, rather than taking minutes like conventional thermometers. Scan slowly around the edges of a window, and by watching the numbers climb or drop you can see which parts of the window are leaking heat. Scan up and down the inside of an exterior wall, and the point to which the blown-in insulation has settled is obvious -- there's a 5ºFtemperature difference across a very short distance. The Flaw of Exterior Storm Windows We do have exterior storm windows. However, closing the exterior storm windows, to my surprise, did not greatly improve the interior temperature readings! On the other hand, application of flexible plastic film (boxed kits from 3M, FrostKing, Niagara Conservation) on the INSIDE helped a lot, as long as the plastic film was airtight all the way around, especially along the bottom of the window. How could this be? An exterior storm window with moveable upper and lower sashes leaks air, both at the middle and also around the edges. It also has to have "weep holes" to drain away condensation which otherwise would rot the window sill; but the weep holes also leak air, reducing the insulating effectiveness of the storm window. Plastic Film works but is a pain I liked the effectiveness of the plastic film kits, and they are quite inexpensive; but they are a recurring pain to install, and my wife didn't like either their appearance or the paint damage done by the double-sided adhesive tape used to mount the film to the window casing. When St. John's boiler failed in 2003, in addition to heating system replacement (described in MIP&L newsletter of October 2003), MIP&L recommended an interior storm window system designed by Windowsavers (http://wwww.windowsavers.com). The Windowsavers system uses rigid acrylic (Plexiglas™ or similar) plastic sheets, purchased separately, together with magnetic strips which adhere the acrylic to the window casing while also providing an airtight seal. The concept intrigued me enough to do two things: to research other rigid-pane interior storm window systems on the Internet, and to buy material to try out. Modern Plastics (http://www.modernplastics.com) offers a variety of plastic extrusions (Defender™) which clip onto the edge of an acrylic sheet for the purposes of mounting and sealing to a window casing, either by snapping mating pieces together or with magnetic strips. Both the Windowsavers and Modern Plastics products seemed somewhat pricey to me: $2 per linear foot for the edges, plus the cost of the acrylic sheet, and the hassle of getting it cut. Attachment Option #1 — Magnetic Strips and Plastic Extrusion My first window was a hybrid: Windowsavers magnetic strip for the sides and top, and a Modern Plastics extrusion for the bottom, which fits flat on top of a window sill (See diagram 1.) Works well, looks good, but somewhat expensive and time-consuming to build. In hunting for acrylic sheet suppliers, I happened upon J Freeman in Dorchester (56 Tenean Street, http://www.jfreeman.com). Hard to get to, inconvenient hours, non-existent customer service; but they will custom cut .093" clear acrylic sheet for $1.49/sq ft net, vs. about $2/sq ft for a stock sized piece at Home Depot, which then has to be cut to size. Attachment Option #2 — Screws and Weatherstripping For the next set of windows, I decided to use mechanical means -- screws -- to fasten the acrylic, and ordinary weatherstripping for air tightness. This too worked well, was easier to assemble – fewer long, thin, adhesive-backed strips which need careful handling and alignment -- and less expensive: 50¢/ft for the edges. Different mounting arrangements are needed, depending on the window configuration. Standard twist drills can cause cracking when making holes in acrylic; a special drill bit for plastic (90º-tip angle instead of the standard 118º) helps avoid this. Attachment Option #3 — Wood Frame with screws and weatherstripping A sturdier version of option #2 is to mount the acrylic on a wood frame, with weatherstripping serving as a seal/gasket between the acrylic and the window frame. This option adds the cost of the wood, and the time to paint to match. However, it is sturdy, easily installed and will last many years. It also presents the opportunity to meet aesthetic requirements, blending the frame into the finish standard of the window and surrounding space. What about really big windows? One other set of windows is worth mentioning. These are extremely large (8 ft wide x 25 ft high) Gothic arched windows in the church façade. Temperature readings taken last winter showed almost 100% infiltration, i.e. the inside readings at the window edges were basically equal to the outside temperature. It would be impossible to obtain single sheets of acrylic of that size, impractical to butt join multiple pieces. Instead, I'm planning to use wide rolls of flexible plastic film, with magnetic strips on the inside of the window casing to hold the plastic film in place. The material hasn't arrived yet; I'll let you know, once it's installed, how well it works. Helpful Hints If you want to undertake something like this for your home or church, here are some practical hints: Decide how the sheet will be mounted: against which surfaces, with how much clearance or overlap required in each direction for the mounting and sealing mechanism (magnetic, adhesive, nails, screws, weatherstripping, etc.). A drawing helps you visualize whether the sheet dimension needs to be larger (overlap) or smaller (clearance) than the relevant window dimension. The drawing doesn't need to be to scale. Measure carefully and often. Especially in old buildings, don't assume that rectangular-looking openings are in fact exactly rectangular. Measure both top and bottom, both left and right. Measure both diagonals to make sure they are the same. Do-It-Yourself vs. Professionally Built/Installed The variations described above are all “Do-It-Yourself” – scope, measure, purchase materials, assemble, and install. A growing industry of manufacturers and installers are also available – for a price – to do this work for you. (Try a Google search on “interior storm windows”). However, the price is high. For a 3’x5’ window, a professionally built and installed window may run between $100-200. The alternatives described above, for the same size window, cost $30-50 for materials. Non-profit organizations can save a lot of money with skilled volunteer labor. Gas, Oil, and Propane Boilers from Monitor 3/15/05 10:13 AM Monitor Hydronic Boilers Natural Gas, Oil or Propane (LP) Other Products from HouseNeeds.com Return to Monitor Boiler Main Page Water Heaters Radiant Heat Gas Space Heaters Electric Heaters Boilers Heating Supplies Plumbing Supplies Radiators Ventilation Bath & Kitchen Solar Misc Brilliantly designed for ultra high efficiency and built with the highest quality components, these fully condensing, wallhung units provide you with the greatest level of comfort for your money. Built to last forever with minimal service, they offer a multitude of installation options and can perform many tasks -space heating, domestic hot water, pool and spa heating, snow melt - you name it. Using high-grade stainless steel for the heat exchanger and cast aluminum for the water jacket, a lifetime of reliable operation is virtually assured! These Energy Star® MZs are designed for condensing, a process that recovers the heat trapped in the water vapor produced by gas combustion. Condensing enables the boiler to extract all of the heat possible, saving you money year after year. Instead of a flue gas temperature in the 350º to 400º range as the conventional non-condensing boiler produces, the MZ's can be in the range of 50º for snowmelt applications to 170º for baseboard copper-finned operation. The difference in temperature reflects the heat going in the home, not up the chimney. Condensing is great for the environment because along with the condensed vapor, many pollutants are harmlessly drained away. The clean-burning MZs exceed the strictest air quality standard in the US - the California South Coast Air Quality Standards - by 60%! The MZ Boiler Model MZ25S This model combines heat and domestic hot water and it's perfect for one-bathroom homes or condos where space is a premium. Techinical Information of the MZ 25S Boiler Pricing Information The MZ Boiler Model MZ25C This unit easily heats most homes and can produce an endless supply of hot water when combined with one of our BS indirect tanks. Techinical Information of the MZ 25C Boiler Pricing Information The MZ Boiler Model MZ40C This model has the highest output of the Monitor line and is perfect for larger homes and commercial applications. http://www.houseneeds.com/shop/HeatingProducts/boilers/monitor/monitorboilersmz.htm Page 1 of 2 Monitor MZ 25S Hydronic Natural Gas and LP Boiler. 3/15/05 10:13 AM Hit the X button at the top of this page to close this window http://www.houseneeds.com/shop/HeatingProducts/boilers/monitor/mz25sinsidepopup.htm Page 1 of 1 This is one of the most compact and efficient heaters available on the market today. Each Munchkin heater will modulate its firing rate to match the actual energy requirements. This feature provides additional savings versus traditional single firing heaters. With stainless steel construction, you can be assured that you are buying the highest quality appliance. Proven European technology, manufactured in the United States. Quiet operation is just another benefit that comes with the Munchkin heater. Durability 96% Efficiency Quiet Operation Reliability © 2004 Heat Transfer Products, Inc. LP-60 Rev. 10/1/04 The Munchkin Gas Boiler: The Most Compact and Efficient Boiler Available on the Market How How it it Operates Operates When the room thermostat calls for heat, the Munchkin control board will start the pump and start to monitor the return water temperature of the system before the heater will begin to heat the water. Once the controller has sensed a drop in the return water temperature below the temperature set point minus the differential set point, the boiler will start to heat the w a t e r. T h i s eliminates the boiler starting every time the thermostat calls for heat. This feature keeps the system from short cycling. Once the system has sensed the temperature difference, the Munchkin will activate the blower motor for 5 seconds to prepurge the system before starting the Munchkin. The Munchkin controller will now start to modulate the pre-mix burner based on analyzing the return water temperature, supply water temperature, and the set point temperature. By compiling this infor- 92% AFUE condensing technology The cost of fuel in some areas of the country has increased almost 40% in just one year! Munchkin High Efficiency Modulating 92% AFUE gas boilers provides a maximum payback on fuel savings. As the chart illustrates below savings can result in payback periods of less than 3 years. Depending on the age of your present equipment, the Munchkin could save you as much as 50% on your fuel bills. mation, the controller utilizes an algorithm to fully adjust the firing rate while maintaining the desired output temperature. The pre-mix burner fans have a lowvoltage direct current drive motor with a pulse relay counting. This system allows precise control over the fan speed and combustion air volumes. Coupled with the gas valve and the Venturi system set to provide a one-to-one ratio of precisely measured volumes of fuel to air, accurate and instant burner output is achieved. This keeps the Munchkin running at the h i g h e s t efficiency 92% AFUE. When the thermostat is satisfied, the Munchkin will then go through a 4 second post-purge cycle before shutting off. Munchkins are equipped with a control display with indicators that show the normal operation of the boiler. This display will also serve as a diagnostic tool for servicing. 3-Year 3-Year Energy Energy Costs Costs $4,500 $4,000 $3,500 $3,000 $2,500 $2,000 $1,500 $1,000 $500 $0 NonCondensing NearCondensing Condensing / Modulating Durable All Stainless Steel Heat Exchanger The Munchkin design starts with the individual stainless steel helical water circuits, which provide maximum corrosion resistance caused by the condensing of the flue gas inside the secondary portion of the heat exchanger. The flue and individual stainless steel water circuits are baffled to direct the flow which maximize the heat transfer rate. This allows the heat energy from the combustion process to transfer directly into the water as it passes through the individual stainless steel helical circuits. The Munchkin heat exchanger absorbs so much energy that the exhaust gas can be vented with standard schedule 40 PVC pipe. The sealed combustion process and minimal water volume content eliminates external heat loss, this means very little stand by heat loss, resulting in additional energy savings versus a traditional system. Features Features and and Benefits Benefits Fully Modulating for Ultra High Efficiency (92% AFUE) Lowest possible operating cost. Rapid return on investment. Consists of Stainless Steel Construction (316L) Highest quality material available for maximum reliability. Compact, Lightweight Design Installs virtually anywhere, where similar appliances cannot! Zero clearance to combustibles and a small footprint. Its lightweight design makes it easy to be installed by one person! The Munchkin can even be shipped via Parcel Service! Add-on Vision Systems Vision authorized dealers can increase the installation capability of the Munchkin Boiler by adding on one or more of the three Vision systems. Vision Systems offers the customer a variety of “add-on” controls like Outdoor Reset, Multiple Boiler Control, Zone Temperature Control, Alarms and many other features. Direct Vent with Standard Schedule 40 PVC Plastic Pipe Less expensive to install. No chimney required! Installation flexibility. Quiet Operation Refrigerator quiet! State-of-the-Art Control Self-diagnostic microprocessor control system to simplify service. Reliable field-proven spark ignition Constant dependable operation Each Unit is Inspected for 100% Quality Satisfaction Superior quality Sealed combustion Safest-operating appliance available Environmentally friendly Low emissions environment Modular Component Construction Easily maintained. 12 Year Limited Warranty Assurance of quality. Operates at Low Supply Temperature No bypass valve controls needed to protect boiler. New: 11/4" NPT Return and Supply Connections Standard Standard Equipment Equipment Plastic Heater Jacket Modulating Heater Controller Burner Fan Honeywell Gas Valve Venturi System 24 Volt Transformer Supply / Return Temperature Thermister Water Pressure Switch (Set at 8 PSI) Wiring Harness 5/8 Condensation Connection Spark Electrode Recommended Recommended Service Service Clearances Clearances Vent Termination Coupling and Tee (PVC) Rectification Probe High Grade Stainless Steel Burner Electrical Junction Box With Switch High Limit Temperature Control 30 PSI ASME Relief Valve Combination Pressure Temperature Gauge New 11/4" Boiler Return & Supply Connections Munchkin 80M/140M/199M Design Design Enhancements Enhancements Munchkin T50M/T80M European designed, Î high grade s t a i n l e s s steel burner with reliable spark ignition coupled with the Honeywell gas valve and Venturi system. This pre-mix combustion system is the engine Ï T h e p a t e n t e d which provides reliable and efficient operation. Munchkin Heat Exchanger has Í The Munchkin been designed to 925 Control Board provide maximum is engineered to heat transfer, while modulate the firing also providing rate to match the unsurpassed coractual needs of the heat system, saving rosion resistance money by conserving with stainless steel energy. construction. Optional Optional Equipment Equipment SuperStor Ultra Indirect Fired Water Heater SuperStor Ultra Pool Heater Condensate Neutralizer Kit Vent Kit Includes: V1000 Aluminum Outside Termination Kit Concentric Vent Kit Termination 3" Performance Performance Ratings Ratings Connection Connection Sizes Sizes Model Input Modulation DOE Heating AFUE Shipping Weight IBR Model Supply/Return Connection Gas Connection Size Vent Diameter T50 18,000 to 50,000 16,000 to 46,000 92% 58 lbs. 40,000 T50 1-1/4" NPT 3/4" 2" T80 19,000 to 80,000 17,000 to 74,000 92% 58 lbs. 64,000 T80 1-1/4" NPT 3/4" 2" 80M 27,000 to 80,000 25,000 to 74,000 92% 75 lbs. 64,000 80M 1-1/4" NPT 3/4" 3" 140M 46,000 to 140,000 43,000 to 129,000 92% 101 lbs. 112,000 140M 1-1/4" NPT 3/4" 3" 199M 66,000 to 199,000 61,000 to 183,000 92% 111 lbs. 159,000 199M 1-1/4" NPT 3/4" 3" The Munchkin Gas Boiler — Ideal for Home Use Dimensions Dimensions T50 / T80M Dimensions Dimensions 80M 140M / 199M © 2004 Heat Transfer Products, Inc. LP-60 Rev. 10/1/04 Gas, Oil, and Propane Boilers from Monitor 3/15/05 10:13 AM Monitor MZ 25 S Boiler Technical Information This medicine-cabinet sized unit does it all with its built-in domestic "Flash" hot water tank so that no separate hot water tank is necessary. It gives instant hot water and there is no mixture of heating system water and domestic hot water. The 25S is perfect for installations where space is at a premium. It is recommended for one-bathroom homes and condos. Virtually silent, this zero-clearance to combustibles unit can be mounted in a closet or anywhere that's convenient for you. Technical Specifications - MZ 25 S Functions Efficiency Clearance From Combustibles Required Electrical Use for Operation Dimensions (approx.) BTU/HR Input Hot Water Production (Instantaneous) Flue Circulator Pump (Grundfos® # 1542) HoneyWell® Positive Pressure Gas Valve Air Eliminator Low Water Cut-off Relief Valve Expansion Tank Comfort Heating & Domestic Hot Water 95% None 108 Watts 30" H x 30" W x 13" D (180 lbs.) 94,500 2.9 Gallons per minute Direct Vent Built-in Built-in Built-in Built-in Built-in Built-in Click here to see an exploped inside view of the MZ 25S Boiler Return to Monitor MZ Page http://www.houseneeds.com/shop/HeatingProducts/boilers/monitor/monitorboilersmz25stech.htm Page 1 of 1 Trinity, Canton Comparison of Options — 20 Year Impacts BOILER OPTIONS Best Good Average Current Efficiency 93% 84% 70% 62% Therms/Year 5,729 6,343 7,611 8,568 Cost/Therm $0.95 $0.95 $0.95 $0.95 New Boiler Cost $30,000 $25,000 $18,000 $15,000 Annual Operating Cost $5,443 $6,026 $7,231 $8,140 20 Year Operating Cost $108,851 $120,514 $144,616 $162,792 TOTAL Cost for 20 Years $138,851 $145,514 $162,616 $177,792 Utility Incentive $5,500 $0 $0 $0 NET to User $133,351 $145,514 $162,616 $177,792 $s saved (current $s) $44,441 $32,278 $15,176 $0 Inflation rate at > 3.0% New Boiler Cost $30,000 $25,000 $18,000 $15,000 20 Year Operating Cost $146,243 $161,912 $194,295 $218,714 TOTAL Cost for 20 Years $176,243 $186,912 $212,295 $233,714 Utility Incentive $5,500 $0 $0 $0 NET to User $170,743 $186,912 $212,295 $233,714 $s saved (inflated $s) $62,971 $46,802 $21,419 $0 20 Year Emissions CO2 (greenhouse gas) 1,924,944 2,131,188 2,557,426 2,878,848 NOx (health issues) 1,512 1,675 2,009 2,262 % savings vs. current 33.1% 26.0% 11.2% 0.0% Note: Efficiency is estimated seasonal © Copyright, 2002. Massachusetts Interfaith Power & Light This report and analysis is based upon observations of the visible and apparent conditions of the property and the components evaluated on the date of assessment. Care has been taken in the performance of this assessment. This report is made only in the best exercise of our ability and judgment. However, Massachusetts Interfaith Power & Light (and or its representatives) makes no representations regarding latent or concealed defects that may exist, and no warranty or guarantee is expressed or implied. Conclusions in this report are based on estimates of the age and normal working life of various items of equipment and appliances. Predictions of life expectancy and the balance of useful life are necessarily based on industry and/or statistical comparisons and observed conditions. It is essential to understand that actual and future conditions can alter the useful life of any item. The previous use/misuse, irregularity of servicing, faulty manufacture, unfavorable conditions, acts of God and unforeseen circumstances make it impossible to state precisely when each item will require replacement and/or what the actual savings in use and cost will be. The Member herein should be aware that certain components with the above referenced property may function consistent with their purpose at the time of the assessment, but due to their nature are subject to deterioration without notice. Unless otherwise noted, all building components are assumed to have met the building code requirements in force at the time of construction. Conclusions reached in this report assume responsible ownership and competent management of the property. Information provided to us by others is believed to be reliable. However we assume no responsibility for the accuracy of such information.